We revisit the Proportional-Integral-Derivative (PID) controller design for torque control of robotic manipulators, for which, appropriate tuning of the said controller could prove very burdensome, especially with increasing degrees-of-freedom (DOF) and/or when designing a Multi- Input Multi-Output (MIMO) PID controller. That is, when generating and tuning matrix P-I-D gains as opposed to single values, in order to take in account possible coupling effects between involved joints. We tackle both joint space and workspace PID control tuning problems for reference tracking from an optimization standpoint. Using a previously developed stable Adaptive Particle Swarm Optimizer, we are able to automatically and systematically tune P-I-D gains, be...
ABSTRACT: Model based controllers -- Pid controllers -- Adaptive controllers -- Sliding mode control...
Particle Swarm Optimization (PSO) is a numerical optimization technique based on the motion of virtu...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
In this article, a robot manipulator is controlled by the PID controller in a closed loop system wit...
Tuning parameters of a robot axis PID controller manually requires resources and expertise. Even a s...
PatentThe disclosure provides a robotic arm controller which determines a control parameter for at l...
This paper investigates the optimization approach of PID controller for double-link flexible robotic...
This article presents the design and real-time implementation of an optimal collaborative approach t...
This report describes work developing fault tolerant redundant robotic architectures and adaptive co...
The control and programming methodology of industrial robots is becoming increasingly important. The...
International audienceThis article proposes a robust PID adaptive controller for nonlinear systems w...
Two-wheeled balancing robot is a mobile robot that has helped various human’s jobs such as the trans...
This study proposes a control method for servo motor position using a proportional-integral-derivati...
The PUMA 560 Industrial Manipulator is presently controlled using a PID control strategy Robot manip...
Particle Swarm Optimization (PSO), an artificial method to determine the optimal proportional- inte...
ABSTRACT: Model based controllers -- Pid controllers -- Adaptive controllers -- Sliding mode control...
Particle Swarm Optimization (PSO) is a numerical optimization technique based on the motion of virtu...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
In this article, a robot manipulator is controlled by the PID controller in a closed loop system wit...
Tuning parameters of a robot axis PID controller manually requires resources and expertise. Even a s...
PatentThe disclosure provides a robotic arm controller which determines a control parameter for at l...
This paper investigates the optimization approach of PID controller for double-link flexible robotic...
This article presents the design and real-time implementation of an optimal collaborative approach t...
This report describes work developing fault tolerant redundant robotic architectures and adaptive co...
The control and programming methodology of industrial robots is becoming increasingly important. The...
International audienceThis article proposes a robust PID adaptive controller for nonlinear systems w...
Two-wheeled balancing robot is a mobile robot that has helped various human’s jobs such as the trans...
This study proposes a control method for servo motor position using a proportional-integral-derivati...
The PUMA 560 Industrial Manipulator is presently controlled using a PID control strategy Robot manip...
Particle Swarm Optimization (PSO), an artificial method to determine the optimal proportional- inte...
ABSTRACT: Model based controllers -- Pid controllers -- Adaptive controllers -- Sliding mode control...
Particle Swarm Optimization (PSO) is a numerical optimization technique based on the motion of virtu...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...